Department
of Chemistry
Programme Outcomes (U.G)
v After persuing B.Sc
course ( C.P.Z,B.Z.C,M.P.C & B.B.C)
students will gain both Theoretical and Practical knowledge in chemistry and able to handle with chemicals.
v With the knowledge of chemistry, students can get placements in
private pharmaceuticals as well as in government services like health inspector, pharmacist , lab
assistant etc.
v Students will aquire the skills, which are required to succeed in getting employment and
is the chemical industries like cement, paint , rubber,food processing & fertilizer
industries etc.
v Mainly This programme is useful for the
students of biotechnology(B.B.C) to work with the structures of biomolecules and their interactive relations
to the environment.
v Students will gain knowledge
of experimental techniques of modern instrumentation used in industries.
v Students can understand
the importance of the elements in the periodic table including their physical
and chemical nature and their role in
with daily life.
v Understand the concept of
chemistry to inter relate with other subject like Mathematics, Physics,
zoology, Botany etc.
v Students will learn safe and secure measures when doing
experiments in laboratory.
Course Outcomes (U.G)
Semester-I -Paper-I Inorganic and Organic Chemistry
1.To make student understand the modern periodic table which stand the backbone in understanding Chemistry and the periodic properties like Atomic and Ionic size Ionization Energy Electron Affinity Electro negativity and making student understand the P- Blockelements of Group 13&14 Elements in a periodic table.
2.They know the Classification ,Nomenclature of Organo metallic compounds.
3.Students become eligible to study the subject initially by understanding the basic things for chemical reactions i.e. Substrate and Reagents Types of reagents Electrophilic and Nucleophilic Homolytic and heterolytic fission & Inductive effect etc.
4.Many of the daily used materials are organic compounds and majority of them are hydrocarbons therefore this topic makes the concept regarding their formation.
5.They know about the Basic of the alkenes and alkynes and describe the structure of Benzene with respect to the chemical point of view.
Semester-II- Paper-II Physical and General chemistry
1.Physical chemistry is the branch of chemistry which supports in different ways to understand the subject theoretically which needs the help of certain tools and the mathematical tools are important amongst it thus understanding the mathematical ideas the subject can be better enriched.
2.The research and the development has evolved to the level high and as a result of that the human life standard has thus enhanced day by day medicinal, infrastructural home utilities etc facilities like electronic equipments.
3.The drugs may used any of the states of the matter like solid, liquid, gaseous state.
4.In majority of the daily routine thing used for its surface utilization and therefore understanding the surface phenomenon.
5. The students will gain Knowledge about Different types of Hybridisation.and also the concept of Hydrogen bonding and describe the MOT Theory of Homo and Hetero Atomic molecules. the importance of optical isomerism and understand the terms of Enantiomers, Diastereomers and Meso compounds.
Semester-III- Paper-III Inorganic and Organic Chemistry
1.The students will be an Understand the trends in atomic and physical properties of d-block elements .
2.The students will gain Knowledge about Conductors. Semiconductors and Insulators used in daily life.
3.The students will an Understand the shapes and structures of metal carbonyls.
4.The students will be an Understand the distinguish aliphatic and aromatic halogenated organic compounds and they know the preparation methods for the halogenated organic compounds.The students will Understand the interpret reactivity of aldehydes and ketones.
5.The students write different preparation methods for carboxylic acids and their derivatives.and also understand the design reactions of carboxylic acids and their derivatives of active metylene compounds.
Semester-IV- Paper-IV Spectroscopy & Physical Chemistry
1.The students will gain an understand the Spectroscopy and how to analyzed the unknown organic compounds by using instrumentation of spectrophotometers of IR spectroscopy Electronic spectroscopy and proton magnetic resonance spectroscopy.
2. The fundamentals of electronic structure and bonding in conjugated and aromatic systems by using Electronic spectroscopy
3. Students will be provided with an introduction to the fundamentals of electrochemistry and solution properties. And understand how simple ions added to aqueous solution affect the structure of water.
4. The students Understand why a solution conducts electricity and how it can be measured.and the relationship between the cell potential, and also how to measure a standard electrode potential using a standard reference electrode.
5. Defines the importance of phase diagrams in the field of material science. And define the importance of basic definitions Phase,Equilibrium,Component,Degree of freedom and phase rule concept.
Semester-V - Paper-V- Inorganic,Physical and Organic Chemistry
1. The students will gain an understand how to classify of coordination compounds,Valence
bond theory,Hybridisation.
2. Describe the electronic selction rules and correlate the intensity and wavelength of
Coordination geometry.
3. The students will gain an understand the classification and nomenclature &named
reactions of nitro hydrocarbons.
4. They know the nomenclature,classification of primary,secondry,tertiary
&quaternary amines and its synthesis and applications of nitrogen compounds.
&quaternary amines and its synthesis and applications of nitrogen compounds.
5. Students will gain an understanding of the first law of Thermodynamics and how to
express its mathematical application and calculate energy.
Paper-VI- Inorganic,Physical and Organic Chemistry
1. The students able to describe bonding models that can be applied to a consideration of the properties of transition metal complex. The students familiar about the inorganic halogen compounds, coordination compounds and transition elements.
2. They know the biological significance of elements. And also gain the knowledge about the structure and functions of Hemoglobin, Chlorophyll.
3. The students understanding of heterocyclic chemistry which includes various methods for ring synthesis and application of those methods for the preparation of specific groups of heterocyclic systems.
4. They find the carbohydrates in our food, and understand the structure of glucose and fructose.
5. The students define what are amino acids, and which elements present in our body and also the synthesis and applications of amino acids.
Semester-VI – Elective Paper-VII- Inorganic,Physical and Organic Chemistry
1. The course aims to familiarize students with the principles of analytical chemistry and
Basic analytical techniques including volumetric analysis.
2. The students should be able to make the solutions of various molar concentrations.
3. The students know the how to separate impurities in solvents by solvent extraction.
4. The students know the how to separate a components in mixture in industrials.
5. The students also understand the different chromatographic methods in practical purposes.
Cluster Paper-VIII-(A-1): Polymer Chemistry
1. The students will gain knowledge about, how to estimate the number- and weight-average molecular masses of polymer samples given the degree of polymerization and mass fraction of chains present.
2. The students an understanding of Converting monomer to long chain polymer and understanding of polymerization processes.
3. The students identify the repeat units of particular polymers and specify the isomeric structures which can exist for those repeat units
4. They describe the role of rubber-toughening in improving the mechanical properties of polymers.
5. The students know the how to manufacture of plastics in Industrial level.
Cluster Paper-VIII-(A-2): Instrumental methods of analysis
1. The fundamentals of electronic structure and bonding in conjugated and aromatic systems by using Electronic spectroscopy.
2. The students how to detect a signals and they know the advantages of FTIR.
3. They know the single and double beam spectrophotometers and Fluorescence.
4. They know the how to handling of Gas and liquid chromatography by using different samples in industrial purpose.
5. The students an understanding of separation of ions by using mass, charge ratio.
Cluster Paper-VIII-(A-3): Analysis of Drugs, Foods, Dairy products and Bio chemical analysis
1. The students know the information about how drugs perform in daily clinical practice.
2. They know the Molecular structure of Paracetmol and Aspirin.
3. They Know the different anti histamine drugs like Allegra, zyrte.
4. The students know about analysis of milk, and identify the fat, acidity present in Milk products.
5. They know about the how to estimate blood composition in clinical analysis.
PROGRAMME OUTCOMES (P.G)
DEPARTMENT OF CHEMISTRY- PG:
PSO :1 Enables students to Understand the nature of matter at
atomic and molecular levels.
PSO :2 To Understand their bonding, Co-ordination, structures
and the physical, chemical properties which is essential in drug
designing processes.
PSO:3 Isolation and occurrences of natural products,
spectroscopy, chromatography Analysis in vovious industries like
pharmaceutical, chemical, Agricultural, textiles,
petroleum,cosmetics,polymers and chemical technology.
COURSE OUTCOMES
SEMESTER-I
COURSE CODE: CHE -10301
COURSE TITLE: CHE -101- IN ORGANIC CHEMISTRY
COURSE TITLE: CHE -101- IN ORGANIC CHEMISTRY
CO1: Explain the basics of crystal field theory, CFSE and its calculations splitting of d-orbital, structures (trigona, sqarplanr ,pyramidal,pentagonal),its applications and MOT of co-ordinate bond, M.O diagram
CO2: Explain the general characteristics of the Non-Transition elements, special features of individual elements Synthesis, properties & structure of some Non-Transition elements
CO3: learn to Reactivity of metal complexes, inert & labile complexes , kinetics & mechanism of substitution reactions, acid &base hydrolysis reaction
CO4: Understand the preparation, properties ,strictures, VBT,MOT,EAN of the metal carbonyls and metal nitrosyls
COURSE CODE: CHE -10302
COURSE TITLE: CHE- 102 - ORGANIC CHEMISTRY
CO1: Explain the aromatic ,non aromatic ,benzenoid and non benzenoid compounds its follow the Huckle rule, stricture and synthesis of some aromatic compounds
CO2:learn to the aliphatic and aromatic substation reactions classification of substation reactions NGP, Bandings, reactivity of substrate and examples
CO3: Explain the representation of organic molecules and Optical isomerism: Molecular Symmetry and Chirality , classification-configuration of cis and trans, R-S isomers some examples
CO4: learn to the Type of reactions and mechanisms and some examples, thermodynamic and kinetic requirements and controls, potential energy diagrams ( ally and arynes,freeradicals)
COURSE CODE: CHE- 10303
COURSE TITLE: CHE -103 -PHYSICAL CHEMISTRY
CO1: Explain the Quantum mechanical results of operator algebra, momentum and energy. the Schrödinger’s eqation,particle in a box and some modals, And approximate methods(first order ,non degenerate)
CO2: learn to the chemical dynamics of rate laws, collision theory ,Lindeman-Hinshelwood (RRKM)theory and applied photochemical reactions(H,Br,HCl),Autocatalysis-H,O reactions
CO3: Analyze the thermodynamic derivation of phase rule, solid-liquid, thermal analysis and applications ,Two component system
CO4: Analyzed The Electro Chemistry Debye huckel-onsagarequation,limitations examples activity and activity coefficients EMF method their limitations and reversible electro chemical cells(liquid junction potential), electro catalysis
COURSE CODE: CHE -10304
COURSE TITLE: CHE -104 - SPECTROPHOTOMETER GROUP THEORY AND ANALYTICAL METHODS
CO1: Explain the basic principles of spectroscopy and electromagnetic spectrum, width of spectral lines. And UV &visible spectroscopy(Beers-lamberts law) some examples are Cr &Mg in mixtures.
CO2:To analyze symmetry and group theory ,sub groups and classification point symmetry group, symbols(Cn,Cnv,Dnh) etc.
CO3:To analyzed analytical methods and types of errors, significant figures their examples and calibration of weights, glass wear.
CO4:Explain the basic principles of thermal methods and radio analytical methods their examples.
SEMESTER-II
COURSE CODE: CHE 20301
COURSE TITLE: CHE 201 IN ORGANIC CHEMISTRY
CO1:Explain transition metal π-complexes understand organic molecules their preparation, properties ,structures and reactivity.
CO2:To learn electronic spectra of complexes Frank-cond on principle - Russel saunders coupling - spectroscopic term symbols-selection rules - break down of selection rules- orgel Diagrams for d1 to d9 configurations.
CO3:To explain magnetic properties of transition metal complexes and calculation of magnetic moment from magnetic susceptibility of examples Ti (III), V (III), VO2+, Cr (III), Mn (II), Fe (III), Co(II), Ni (II) and Cu (II).
CO4:To analyzed catalysis reactions ,classification,redax reactions other types of catalyzed reactions in their examples.
COURSE CODE: CHE 20302
COURSE TITLE: CHE 202 ORGANIC CHEMISTRY
CO1:Explain the elimination reactions and etherification and their types ,factors, molecular rearrangement some reactions.
CO2:Explain the stereo chemistry of geometriculer isomerism ,classification and conformational analysis and their reactivity of cycles &acyclic molecules examples of some isomerism.
CO3:Explain the nomenclature of hetro cycles compounds(Hantzsch-widman) three &four member cycles their synthesis and chemical properties.
CO4:Explain the definition ,general methods of isolation,isoprenerule , classification and synthesis of terpenoids.
COURSE CODE: CHE 20303
COURSE TITLE: CHE 203 PHYSICAL CHEMISTRY
CO1: Explain the Quantum Chemistry Angular momentum- Generalised Angular momentum, Electronic structure of Atoms and molecular orbital theory of heckle rile their applications and examples.
CO2:To learn surface chemistry ,vapour process ,Gibbs adsorption isotherm BET equation and micelles their classification CMC reactions.
CO3: Explain the Classical Thermodynamics, Statistical Thermodynamics, Derivation of Gibbs- Durham’s equation, calculation of thermodynamic properties in terms of portion functions – Heat capacity, chemical equilibrium and equilibrium constant in terms of partition functions .
CO4:Explain the Reversibility and irreversibility , Dissolution and deposition ,voltage, charge transfer,polarography reactions in electro chemistry.
COURSE CODE: CHE 20304
COURSE TITLE: CHE 204 –BIO INORGANIC, BIO ORGANIC BIO PHYSICAL & CHEMOTHERAPY
CO1: Explain the bio inorganic chemistry ,hydrolytic metalo enzymes ,importance of metal in biology and metal complexes.
CO2:To learn carbohydrates lipids and fatty acids their structures and biological importance of bio organic chemistry.
CO3:To learn bio physical chemistry,polymers,enzymes(DNA & RNA) Structures and functions.
CO4:To Explain chemotherapy,anti malerials and anti biotics ,their structures and synthesis structure activity relationship.
SEMESTER-III
COURSE CODE: CHE 30301
COURSE TITLE: CHE 301 - ORGANIC CHEMISTRY-I
CO1: To Learn Addition Reaction C-C,C=C,C=O,C=N reactions and some named reactions, rearrangements, examples
CO2: learn to the reagents in uses in organic synthesis reactions examples (AlCl3,BF3,N-Bs,DDQ-etc)
CO3:Expailn the some organo metallic reagents their uses in organic reactions (Zn,Co,Me,Rh,Pd,Ni)
CO4: Explain the Topicity, Prochirality, Pro stereoisomerism-Substrate Selectivity, Diastereo selectivity, classify cation of Asymmetric Synthesis ,some examples
COURSE CODE: CHE 30302
COURSE TITLE: CHE 302 - ORGANIC CHEMISTRY-II
CO1: To Learn Replacement and Hantzsch-Widman nomenclature of five membered, six membered and fused heterocycles and their synthesis
CO2: learn to the Benzofused Five and Six Membered Heterocyclic Compounds, their synthesis and functions
CO3: Explain The Polymer Reactions, Stereo specific Polymers, Preparation of Polymers based on different types of polymers and synthesis
CO4: Analyzed the oxidation and reduction reaction ,difference between the oxidation and reduction ,some examples
COURSE CODE: CHE 30303
COURSE TITLE: CHE 303 –ORGANIC SPECTROSCOPY AND ITS APPLICATIONS
CO1:To define the UV spectroscopy ,ORD and Circular dichrosim principle , some examples
CO2: To analyzed the IR spectroscopy ,FT-IR spectroscopy, values and applied some carbonyl compounds
CO3:To explain the NMR spectroscopy, C13 NMR spectroscopy and their applications ,classification of Copings(ABX,AMX,ABC,A2B2 etc),COSY,NOESY,DEPT,HSQC,HMBC.
CO4: To analyzed the Mass spectroscopy values, types. Molecular ion pike,Ei,CI,FD and FAB , examples of mass spectral fragmentation of organic compounds with respect to their structure determination.
COURSE CODE: CHE 30304
COURSE TITLE: CHE 304 – GENERAL CHEMISTRY
CO1: To analyzed the structure,bio synthesis, biological importance, classification of Vitamins And Prostaglandins
CO2: To analyzed the structure,bio synthesis, biological importance, classification of enzymes as a tool for drug development(aspirin).
CO3:Knowldged for drug discovery and principle of drug desining,classification of drug some examples their biological importance.
CO4:Knowldged for different types of chromatography techniques used for modern separation methods.
SEMESTER-IV
COURSE CODE: CHE 40301
COURSE TITLE: CHE 401 - ORGANIC SYNTHESIS-I
CO1:Learn to the organometalic reagent used for organic reactions(B,S,Si,Pa).
CO2:Knowldged for some rearrangements used in organic reactions, classification of rearrangements (C,N,O) and aromatic rearrangements.
CO3:Knowldged for different types of reactions involved in organic synthesis, used for PTC,microwave, enamine, ionic liquid .
CO4:Learn to the molecular orbital symmetry used for organic molecules,electrocyclic reactions, classification ,4n+2 rule .
COURSE CODE: CHE 40302
COURSE TITLE: CHE 402 - ORGANIC SYNTHESIS-II
CO1: :Knowledge for different types of organic reactions Disconnection Approach, Classification of organic reactions-C,C=C,C-X, Two C=X some examples.
CO2: Knowledge for different types of organic reactions, protecting group, one group ,two group and some examples.
CO3:Learn to the differences types of photo chemical reaction used in examples and cycle, acyclic compounds.
CO4: Learn to the molecular orbital symmetry used for organic molecules cyclo addition reactions some examples and sigma tropic rearrangements.
COURSE CODE: CHE 40303
COURSE TITLE: CHE 403 –CHEMISTRY OF NATURAL PRODUCTS
CO1:Knowlgded for basics skelliton,nomiclature and bio synthesis of steroids and harmons.
CO2:Analyzed for accurancy,osolation,structure elucidation and physic logical action, classification and biosynthesis of alkaloids.
CO3:Knowlgded for synthesis, properties, structure and metabolism of proteins and peptides.
CO4:Learn to accurancy,osolation,structure elucidation and synthesis biological importance of flavanoids & isoflavanoids .
COURSE CODE: CHE 40304
COURSE TITLE: CHE 404 – GREEN CHEMISTRY
CO1: Knowldged for principle,atomeconomy and scope of green chemistry used in organic reactions.
CO2:Knowldged for synthesis of some examples used in multistep synthesis.
CO3:Understand the classification, characterization and applications of nonmaterial’s.
CO4:Explain the structure synthesis and conformation of nucleic acid nucleotide.
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